{"id":7295,"date":"2016-10-31T08:57:57","date_gmt":"2016-10-31T08:57:57","guid":{"rendered":"https:\/\/mycor.iam.inrae.fr\/IAM\/?page_id=7295"},"modified":"2022-04-01T12:32:15","modified_gmt":"2022-04-01T12:32:15","slug":"publications-2016","status":"publish","type":"page","link":"https:\/\/mycor.iam.inrae.fr\/IAM\/?page_id=7295","title":{"rendered":"Publications 2016"},"content":{"rendered":"
    \n
  1. Temporal changes of bacterial communities in the Tuber melanosporum ectomycorrhizosphere during ascocarp development.<\/a>\u00a0A Deveau, S Antony-Babu, F Le Tacon, C Robin, P Frey-Klett, S Uroz. Mycorrhiza, 1-11<\/li>\n
  2. The poplar Rust-Induced Secreted Protein (RISP) inhibits the growth of the leaf rust pathogen Melampsora larici-populina and triggers cell culture alkalinisation<\/a>\u00a0B Petre, A Hecker, H Germain, P Tsan, J Sklenar, G Pelletier, A S\u00e9guin, … Frontiers in Plant Science 7, 97<\/li>\n
  3. Impact of Phanerochaete chrysosporium on the Functional Diversity of Bacterial Communities Associated with Decaying Wood<\/a>\u00a0Herv\u00e9 Vincent, Ketter Elodie, Pierrat Jean-Claude, Gelhaye Eric, Frey-Klett Pascale. PLoS ONE 1 (11), e0147100<\/li>\n
  4. Genetic diversity and genetic structure of black alder (Alnus glutinosa [L.] Gaertn) in the Belgium-Luxembourg-France cross-border area.<\/a>\u00a0D Mingeot, C Husson, P Mertens, B Watillon, P Bertin, P Druart. Tree Genetics & Genomes 12 (2), 1-12<\/li>\n
  5. Reconstructing the evolutionary history of gypsy retrotransposons in the P\u00e9rigord black truffle (Tuber melanosporum Vittad.)<\/a>\u00a0T Payen, C Murat, F Martin. Mycorrhiza, 1-11<\/li>\n
  6. Phytophthora\u00d7 alni and Phytophthora lacustris associated with common alder decline in Central Portugal<\/a>\u00a0M Kanoun\u2010Boul\u00e9, T Vasconcelos, J Gaspar, S Vieira, C Dias\u2010Ferreira, …Forest Pathology<\/li>\n
  7. Understanding plant cell-wall remodelling during the symbiotic interaction between Tuber melanosporum and Corylus avellana using a carbohydrate microarray.\u00a0<\/a>F Sillo, JU Fangel, B Henrissat, A Faccio, P Bonfante\u2026 – Planta<\/li>\n
  8. Mate Finding, Sexual Spore Production, and the Spread of Fungal Plant Parasites<\/a>\u00a0FM Hamelin, F Castella, V Doli, B Mar\u00e7ais, V Ravign\u00e9, MA Lewis. Bulletin of Mathematical Biology, 1-18<\/li>\n
  9. Influence of site and stand factors on Hymenoscyphus fraxineus induced basal lesion<\/a>.\u00a0B Mar\u00e7ais, C Husson, L Godart, O Ca\u00ebl. Plant Pathology<\/li>\n
  10. Mineral Type and Solution Chemistry Affect the Structure and Composition of Actively Growing Bacterial Communities as Revealed by Bromodeoxyuridine Immunocapture and 16S rRNA Pyrosequencing<\/a>.\u00a0LC Kelly, Y Colin, MP Turpault, S Uroz. Microbial ecology, 1-15<\/li>\n
  11. Role of secondary metabolites in the interaction between Pseudomonas fluorescens and soil microorganisms under iron limited conditions\u00a0<\/a>A Deveau, H Gross, B Palin, S Mehnaz, M Schnepf, P Leblond, … FEMS Microbiology Ecology, fiw107<\/li>\n
  12. Chloroplast FBPase and SBPase are thioredoxin-linked enzymes with similar architecture but different evolutionary histories<\/a>\u00a0DD G\u00fctle, T Roret, SJ M\u00fcller, J Couturier, SD Lemaire, A Hecker, …Proceedings of the National Academy of Sciences, 201606241<\/li>\n
  13. Specific impacts of beech and Norway spruce on the structure and diversity of the rhizosphere and soil microbial communities<\/a>\u00a0S Uroz, P Oger, E Tisserand, A C\u00e9bron, MP Turpault, M Bu\u00e9e, W De Boer, … Scientific Reports 6, 27756<\/li>\n
  14. Tree species select diversee soil fungal communities expressing different sets of lignocellulolytic enzyme-encoding genes<\/a>. F Barbi, E Prudent, L Vallon, M Bu\u00e9e, A Dubost… – Soil Biology and…, 2016<\/li>\n
  15. Into the functional ecology of ectomycorrhizal communities: environmental filtering of enzymatic activities.<\/a>\u00a0PE Courty, F Munoz, MA Selosse, M Duchemin, S Criquet, F Ziarelli, … Journal of Ecology<\/li>\n
  16. Impact of reducing and oxidizing agents on the infectivity of Q\u03b2 phage and the overall structure of its capsid<\/a>\u00a0P Loison, D Majou, E Gelhaye, N Boudaud, C Gentler FEMS Microbiology Ecology, fiw153<\/li>\n
  17. Plastidic P2 glucose-6P dehydrogenase from poplar is modulated by thioredoxin m-type: distinct roles of cysteine residues in redox regulation and NADPH inhibition<\/a>\u00a0M Cardi, M Zaffagnini, A De Lillo, D Castiglia, K Chibani, JM Gualberto, …Plant Science<\/li>\n
  18. Fine-scale genetic structure of natural Tuber aestivum sites in southern Germany<\/a>\u00a0V Molinier, C Murat, A Baltensweiler, U B\u00fcntgen, F Martin, B Meier, …\u00a0Mycorrhiza, 1-13<\/li>\n
  19. Genetic signatures of a range expansion in natura: when clones play leapfrog<\/a>\u00a0R Becheler, C Xhaard, EK Klein, KJ Hayden, P Frey, S De Mita, F Hackett.\u00a0Ecology and Evolution<\/li>\n
  20. Improving the design of long-term monitoring experiments in forests: a new method for the assessment of local soil variability by combining infrared spectroscopy and dendrometric data<\/a>\u00a0E Akroume, B Zeller, M Bu\u00e9e, P Santenoise, L Saint-Andr\u00e9\u00a0Annals of Forest Science, 1-9<\/li>\n
  21. Ectomycorrhizal ecology is imprinted in the genome of the dominant symbiotic fungus Cenococcum geophilum<\/a>\u00a0M Peter, A Kohler, RA Ohm, A Kuo, J Kr\u00fctzmann, E Morin, M Arend, …\u00a0Nature Communications 7, 12662<\/li>\n
  22. Global geographic distribution and host range of Dothistroma species: a comprehensive review<\/a>\u00a0R Drenkhan, V Tome\u0161ov\u00e1\u2010Haataja, S Fraser, RE Bradshaw, P Vahal\u00edk, … Forest Pathology<\/li>\n
  23. Investigation of the sexual reproduction strategy of the Perigord black truffle (tuber melanosporum Vittad.) revealed trioecy<\/a>. H De la Varga, F Le Tacon, M Lagoguet, F Todesco, T Varga, I Miquel, …Bio-archive<\/li>\n
  24. Soil type determines the distribution of nutrient mobilizing bacterial communities in the rhizosphere of beech trees<\/a>\u00a0O Nicolitch, Y Colin, MP Turpault, S Uroz.\u00a0Soil Biology and Biochemistry 103, 429-445.<\/li>\n
  25. Genetic diversity and origins of the homoploid allopolyploid hybrid Phytophthora\u00d7 alni<\/a>.\u00a0J Aguayo, F Halkett, C Husson, Z\u00c1 Nagy, A Szigethy, J Bakonyi, P Frey, …\n
    Applied and Environmental Microbiology, AEM. 02221-16<\/div>\n<\/li>\n
  26. Crystal Structure of Saccharomyces cerevisiae ECM4, a Xi-Class Glutathione Transferase that Reacts with Glutathionyl-(hydro) quinones<\/a>\u00a0M Schwartz, C Didierjean, A Hecker, JM Girardet, M Morel-Rouhier, … PLOS ONE 11 (10), e0164678<\/li>\n
  27. Ecology of the forest microbiome: Highlights of temperate and boreal ecosystems<\/a>\u00a0S Uroz, M Bu\u00e9e, A Deveau, S Mieszkin, F Martin. Soil Biology and Biochemistry 103, 471-488<\/li>\n
  28. Trapping truffle production in holes: a promising technique for improving production and unravelling truffle life cycle<\/a>\u00a0C Murat, L Bonneau, H De La Varga, JM Olivier, S Fizzala,.. Italian Journal of Mycology 45, 47-53<\/li>\n
  29. Dissecting the metabolic role of mitochondria during developmental leaf senescence<\/a>\u00a0D Chrobok, SR Law, B Brouwer, P Lind\u00e9n, A Ziolkowska, D Liebsch, … Plant Physiology, pp. 01463.2016<\/li>\n
  30. Unearthing the roots of ectomycorrhizal symbioses<\/a>\u00a0F Martin, A Kohler, C Murat, C Veneault-Fourrey, DS Hibbett Nature Reviews Microbiology<\/li>\n
  31. Screening for N-AHSL-Based-Signaling Interfering Enzymes<\/a>.\u00a0S Uroz, PM Oger\u00a0Metagenomics: Methods and Protocols, 271-286<\/li>\n
  32. Ecologically Different Fungi Affect Arabidopsis Development: Contribution of Soluble and Volatile Compounds<\/a>\u00a0S Casarrubia, S Sapienza, H Fritz, S Daghino, M Rosenkranz, … PLOS ONE 11 (12), e0168236<\/li>\n
  33. Mineral type and tree species determine the functional and taxonomic structure of forest soil bacterial communities<\/a>\u00a0Y Colin, O Nicolitch, MP Turpault, S Uroz Applied and Environmental Microbiology, AEM. 02684-16<\/li>\n
  34. Regulation of Differentiation of Nitrogen-Fixing Bacteria by Microsymbiont Targeting of Plant Thioredoxin s1<\/a> CW Ribeiro, F Baldacci-Cresp, O Pierre, M Larousse, S Benyamina, … Current Biology<\/li>\n
  35. Soil parameters drive the structure, diversity and metabolic potentials of the bacterial communities across temperate beech forest soil sequences<\/a>. Jeanbille, M., Bu\u00e9e, M.,<\/span><\/strong> Bach, C, C\u00e9bron, Frey-Klett, Turpault, Uroz, S.\u00a0 Microbial Ecology 71: 482-493.<\/li>\n
  36. Editorial: Genomics Research on Non-model Plant Pathogens: Delivering Novel Insights into Rust Fungus Biology<\/a>. Bakkeren G, Joly DL and Duplessis S (2016)\u00a0 Front. Plant Sci.<\/i>\u00a07:216. doi: 10.3389\/fpls.2016.00216<\/li>\n
  37. The Bacterial and Fungal Diversity of an Aged PAH- and Heavy Metal-Contaminated Soil is Affected by Plant Cover and Edaphic Parameters<\/a>. Bourceret, A., C\u00e9bron, A., Tisserant, E. et al.<\/i> Microb Ecol. <\/i>71,\u00a0<\/b>711\u2013724 (2016). https:\/\/doi.org\/10.1007\/s00248-015-0682-8<\/li>\n
  38. \n
    Assessment of inoculation methods for screening black alder resistance to Phytophthora \u00d7alni<\/a>. <\/label><\/label>Chandelier, A., Husson, C., Druart, P., & Mar\u00e7ais, B. (2016). Plant Pathology<\/i>,\u00a065<\/i>(3), 441\u2011450. https:\/\/doi.org\/10.1111\/ppa.12418<\/label><\/label><\/div>\n<\/li>\n
  39. Ecological network analysis reveals the inter-connection between soil biodiversity and ecosystem function as affected by land use across Europe<\/a>. Creamer, R., Hannula, S., Leeuwen, J., Stone, D., Rutgers, M., Schmelz, R., Ruiter, P., Hendriksen, N., Bolger, T., Bouffaud, M., Buee, M., Carvalho, F., Costa, D., Dirilgen, T., Francisco, R., Griffiths, B., Griffiths, R., Martin, F., Silva, P. D.,. . . Lemanceau, P. (2016). Applied Soil Ecology<\/i>,\u00a097<\/i>, 112\u2011124. https:\/\/doi.org\/10.1016\/j.apsoil.2015.08.006<\/li>\n
  40. An evolutionary ecology perspective to address forest pathology challenges of today and tomorrow<\/a>. Desprez-Loustau, M. L., Aguayo, J., Dutech, C., Hayden, K. J., Husson, C., Jakushkin, B., Mar\u00e7ais, B., Piou, D., Robin, C., & Vacher, C. (2016). Annals of Forest Science<\/i>,\u00a073<\/i>(1), 45\u201167. https:\/\/doi.org\/10.1007\/s13595-015-0487-4<\/li>\n
  41. How does the tree root microbiome assemble ? Influence of ectomycorrhizal species on P inus sylvestris root bacterial communities. Deveau, A. (2016).Environmental Microbiology<\/i>,\u00a018<\/i>(5), 1303\u20111305. https:\/\/doi.org\/10.1111\/1462-2920.13214<\/li>\n
  42. \n
  43. Genomic Resources Notes Accepted 1 August 2015 – 31 September 2015. Kohler, A., Kremer, A., le Provost, G., Lesur, I., Lin, G., Martin, F., Plomion, C., Wu, A., & Zhao, F. (2016). Molecular Ecology Resources<\/i>,\u00a016<\/i>(1), 377. https:\/\/doi.org\/10.1111\/1755-0998.12482<\/li>\n
  44. Intrapopulation genomics in a model mutualist : Population structure and candidate symbiosis genes under selection in Medicago truncatula.\u00a0Grillo, M. A., Mita, S., Burke, P. V., Sol\u00f3rzano\u2010Lowell, K. L. S., & Heath, K. D. (2016). Evolution<\/i>,\u00a070<\/i>(12), 2704\u20112717. https:\/\/doi.org\/10.1111\/evo.13095<\/li>\n
  45. \n
  46. Structural and functional characterization of tree proteins involved in redox regulation: a new frontier in forest science.\u00a0Jacquot, JP., Couturier, J., Didierjean, C.\u00a0et al.<\/i> Annals of Forest Science<\/i>\u00a073,\u00a0<\/b>119\u2013134 (2016). https:\/\/doi.org\/10.1007\/s13595-014-0442-9<\/li>\n
  47. \n
  48. Insights into ascorbate regeneration in plants : investigating the redox and structural properties of dehydroascorbate reductases from Populus trichocarpa.\u00a0Lallement, P. A., Roret, T., Tsan, P., Gualberto, J., Girardet, J. M., Didierjean, C., Rouhier, N., & Hecker, A. (2016). Biochemical Journal<\/i>,\u00a0473<\/i>(6), 717\u2011731. https:\/\/doi.org\/10.1042\/bj20151147<\/li>\n
  49. \n
  50. Molinier, V., Murat, C., Peter, M.\u00a0et al.<\/i>\u00a0SSR-based identification of genetic groups within European populations of\u00a0Tuber aestivum<\/i>\u00a0Vittad.\u00a0Mycorrhiza<\/i>\u00a026,\u00a0<\/b>99\u2013110 (2016). https:\/\/doi.org\/10.1007\/s00572-015-0649-0<\/li>\n
  51. \n
  52. \n
  53. Can mosses serve as model organisms for forest research?.\u00a0M\u00fcller, S.J., G\u00fctle, D.D., Jacquot, JP.\u00a0et al.<\/i> Annals of Forest Science<\/i>\u00a073,\u00a0<\/b>135\u2013146 (2016). https:\/\/doi.org\/10.1007\/s13595-015-0468-7<\/li>\n
  54. \n
  55. Rust fungal effectors mimic host transit peptides to translocate into chloroplasts. Petre, B., Lorrain, C., Saunders, D. G., Win, J., Sklenar, J., Duplessis, S., & Kamoun, S. (2016). Cellular Microbiology<\/i>,\u00a018<\/i>(4), 453\u2011465. https:\/\/doi.org\/10.1111\/cmi.12530<\/li>\n
  56. \n
  57. Forest tree genomics : 10 achievements from the past 10 years and future prospects.\u00a0Plomion, C., Bastien, C., Bogeat-Triboulot, M. B., Bouffier, L., D\u00e9jardin, A., Duplessis, S., Fady, B., Heuertz, M., le Gac, A. L., le Provost, G., Legu\u00e9, V., Lelu-Walter, M. A., Lepl\u00e9, J. C., Maury, S., Morel, A., Oddou-Muratorio, S., Pilate, G., Sanchez, L., Scotti, I.,. . . Vacher, C. (2016). Annals of Forest Science<\/i>,\u00a073<\/i>(1), 77\u2011103. https:\/\/doi.org\/10.1007\/s13595-015-0488-3<\/li>\n
  58. Ectomycorrhizal fungi decompose soil organic matter using oxidative mechanisms adapted from saprotrophic ancestors. Shah, F., Nicol\u00e1s, C., Bentzer, J., Ellstr\u00f6m, M., Smits, M., Rineau, F., Canb\u00e4ck, B., Floudas, D., Carleer, R., Lackner, G., Braesel, J., Hoffmeister, D., Henrissat, B., Ahr\u00e9n, D., Johansson, T., Hibbett, D. S., Martin, F., Persson, P., & Tunlid, A. (2016). New Phytologist<\/i>,\u00a0209<\/i>(4), 1705\u20111719. https:\/\/doi.org\/10.1111\/nph.13722<\/li>\n
  59. Dominant Tree Species and Soil Type Affect the Fungal Community Structure in a Boreal Peatland Forest.\u00a0Sun, H., Terhonen, E., Kovalchuk, A., Tuovila, H., Chen, H., Oghenekaro, A. O., Heinonsalo, J., Kohler, A., Kasanen, R., Vasander, H., & Asiegbu, F. O. (2016). Applied and Environmental Microbiology<\/i>,\u00a082<\/i>(9), 2632\u20112643. https:\/\/doi.org\/10.1128\/aem.03858-15<\/li>\n
  60. \n

    Temporal changes of bacterial communities in the Tuber melanosporum ectomycorrhizosphere during ascocarp development.\u00a0A Deveau, S Antony-Babu, F Le Tacon, C Robin, P Frey-Klett, S Uroz. Mycorrhiza, 1-11 The poplar Rust-Induced Secreted Protein (RISP) inhibits the growth of the leaf rust … Continue reading →<\/span><\/a><\/p>\n","protected":false},"author":2,"featured_media":0,"parent":318,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-7295","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/mycor.iam.inrae.fr\/IAM\/index.php?rest_route=\/wp\/v2\/pages\/7295","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/mycor.iam.inrae.fr\/IAM\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/mycor.iam.inrae.fr\/IAM\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/mycor.iam.inrae.fr\/IAM\/index.php?rest_route=\/wp\/v2\/users\/2"}],"replies":[{"embeddable":true,"href":"https:\/\/mycor.iam.inrae.fr\/IAM\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=7295"}],"version-history":[{"count":0,"href":"https:\/\/mycor.iam.inrae.fr\/IAM\/index.php?rest_route=\/wp\/v2\/pages\/7295\/revisions"}],"up":[{"embeddable":true,"href":"https:\/\/mycor.iam.inrae.fr\/IAM\/index.php?rest_route=\/wp\/v2\/pages\/318"}],"wp:attachment":[{"href":"https:\/\/mycor.iam.inrae.fr\/IAM\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=7295"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}